RU96498U1 - CENTRIFUGAL EXTRACTOR - Google Patents

Abstract

 A centrifugal extractor containing a drive, a bearing support, a housing with a mixing chamber and phase output chambers, a rotor with a separation chamber, a conveying device, a water seal and tubes for outputting the light phase, a magnetic coupling, the driving coupling of which is fixed to the drive shaft, the driven coupling half is rigidly connected to a rotor, and between the half-couplings there is a sealing baffle-screen connected rigidly to the housing and connected to the rotor through a bearing sliding bearing connected to the bottom of the baffle-screen bearings, while the cavity of the hydraulic lock is in communication with a gap between the sealing baffle-screen and the driven coupling half, characterized in that the second sliding bearing of the bearing support is connected to the bottom of the sealing baffle-screen.

Description

The utility model relates to designs of centrifugal extractors for a liquid-liquid system and can be used mainly in radiochemical plants for the purification and separation of radioactive liquids.

In radiochemical production, in some processes conventional centrifugal extractors are used, but in most cases special centrifugal extractors are required, the design of which allows their remote maintenance in order to eliminate radioactive pollution of the environment, and at the same time ensure the safety of maintenance personnel. This is especially true in modern conditions, when already irradiated nuclear fuel arrives for reprocessing into radiochemical production, which contains, along with uranium, a highly active element - plutonium, used to produce secondary mixed nuclear fuel - MOX fuel.

In connection with this circumstance, strict requirements have been established to ensure safety conditions during the operation of technological equipment for the production of MOX fuel. Among them is extraction redistribution, where the technological process is implemented using centrifugal extractors located in the canyon and serviced through a protective plug (see Transactions of NIKIMT, Publishing House, Moscow, 2003, v.5, Fig. 12). The object of patent protection in this application is an improved design of a centrifugal extractor for the specified redistribution. The inventive centrifugal extractor is designed to solve the problem of ensuring safety, not only in the conditions of the main work, but also during repair work.

Consider and analyze from this point of view known from the prior art solutions, conceptually similar to the claimed centrifugal extractor.

Known centrifugal extractor (see book. Kuznetsova G.I., Pushkova A.A., Kosogorova A.V. "Centrifugal extractors TSENTREK", RCTU named after D.I. Mendeleev. - M., 2000, 47, fig.1.29.). The extractor contains a drive, a support (bearing support with rolling bearings, equipped with a seal), a housing with a mixing chamber and phase output chambers, a conical rotor with a separation chamber, a conveying device, a water seal, light phase outlet tubes and a cover.

This extractor does not have absolute tightness, since when working with uranium-plutonium fuel, the drive shaft seal will be destroyed under the influence of highly active and toxic plutonium and high rotor speeds of the extractor rotor, which will lead to the expiration of hazardous substances through the destroyed seal into the centrifugal extractor, which operating conditions is unacceptable.

The closest in technical essence to the claimed is a centrifugal extractor (see RF patent No. 844731, class B01D 11/04, 2009), adopted as a prototype. The extractor comprises a drive, a bearing support, a housing with a mixing chamber and phase output chambers, a rotor with a separation chamber, a conveying device, a water seal, and tubes for outputting the light phase. The extractor is equipped with a magnetic coupling, the leading coupling half of which is mounted on the drive shaft, the driven coupling half is rigidly connected to the rotor, and between the coupling halves there is a sealing screen-shield connected rigidly to the housing, and with the rotor through one of the bearings of the bearing support, with the second bearing the sliding of the bearing support is interfaced with the bottom of the rotor, and the cavity of the hydraulic lock is in communication with the gap between the sealing baffle-screen and the driven coupling half.

Due to such a combination of essential features, this centrifugal extractor, along with the technological advantages manifested in the implementation of the extraction process itself, has a very important technical advantage, namely, absolute tightness, eliminating the leakage of radioactive fluids involved in the process from the extractor into the environment.

However, the centrifugal extractor known by the RF patent No. 844731 is not without drawbacks, and therefore cannot be used unconditionally in the processing of mixed uranium-plutonium fuel.

The fact is that, like any technological equipment intended for processing mixed uranium-plutonium fuel, the centrifugal extractor is placed in a protective canyon, and therefore the problem of removing the centrifugal extractor from the protective canyon for repair or replacement is important.

And if the extraction of the main components from the prototype extractor case, such as: a drive, a magnetic coupling, a rotor, a sealing baffle-screen, a sliding bearing connecting the sealing baffle-screen with a rotor, with which the inner movable sleeve of the second sliding bearing is removed, do not presents difficulties and is performed in the worked out order (see Proceedings of NIKIMT, Publishing House, Moscow, 2003, v.5, p.26, Fig. 14), then removing the stationary sleeve of the second sliding bearing for mandatory inspection, repair or replacement It is hindered by a rigid connection with the edge of the mixing chamber located in the lower part of the housing. And since the casing and the mixing chamber are not removed from the canyon, under the conditions of the radiation background in the canyon, the remote extraction of the fixed sleeve is associated with the use of complex additional devices: manipulators, grips, periscopes, lights, etc. All this complicates the operation of the extractor and does not provide a quick safe replacement of failed components and parts in conditions of hard radiation.

These disadvantages of the known centrifugal extractors are absent in the inventive centrifugal extractor, the design of which provides absolute tightness during operation of the extractor and quick safe replacement of its components and parts.

The inventive centrifugal extractor, as well as the prototype, contains a drive, a bearing support, a housing with a mixing chamber and phase output chambers, a rotor with a separation chamber, a conveying device, a water seal and tubes for outputting a light phase, a magnetic coupling, the driving coupling of which is mounted on the drive shaft, the driven half-coupling is rigidly connected to the rotor, and between the half-couplings there is a sealing screen partition connected rigidly to the housing and connected to the rotor through a bearing connected to the bottom of the screen partition m of sliding bearing support, while the cavity of the hydraulic lock is in communication with a gap between the sealing baffle-screen and the driven coupling half. A centrifugal extractor differs in that the second sliding bearing of the bearing support is connected to the bottom of the sealing screen partition.

The claimed utility model meets all criteria of patentability.

It is new, since the claimed combination of its essential features is unknown from the prior art, the proof of which is the absence of distinctive features of the claimed centrifugal extractor in centrifugal extractors, which are its closest analogues in technical essence.

The utility model is industrially applicable, as it can be used in industry. The inventive utility model is characterized by specific design features, each of which is reproducible and does not contradict the use of a centrifugal extractor in an industrial environment.

The drawing shows a specific embodiment of the claimed utility model.

The centrifugal extractor comprises a drive 1, a bearing support with sliding bearings 2 and 3, a housing 4 with a mixing chamber 5 and chambers 6 and 7 of the output, respectively, light and heavy phases, a rotor 8 with a separation chamber 9, tubes 10 for outputting the light phase, transporting a device 11, for example, a screw, and with a water lock formed by the cover 12 of the rotor 8 and a disk 13 with holes 14. An activator 15 is placed in the cavity of the water lock. The inner surfaces of the cover 12 are provided with blades 16 and 17, the disk 13 with blades 18.

The extractor also contains a magnetic coupling, the leading coupling half 19 of which is mounted on the drive shaft 1, the driven coupling half 20 is rigidly connected to the rotor 8 through its cover 12, and between the coupling halves 19 and 20 there is a sealing screen partition consisting of a flange 21, a thin-walled shell 22 and bottom 23. The sealing screen partition is rigidly connected to the housing 4 by connecting the flange 21 to the flange 24 of the housing 4. The sealing screen partition is also connected to the rotor 8 through a sliding bearing 2, the movable sleeve 25 of which is coupled to the cover 12, and the stationary sleeve 26 is connected to the bottom 23 of the screen-partition. The second sliding bearing 3 through its movable sleeve 27 is connected to the cover 12 of the rotor 8, and through the stationary sleeve 28 to the bottom 23. In the rotor 8 there is a crosspiece 29. The cavity of the water seal is connected with a gap 30 between the thin-walled shell 22 of the sealing screen and the driven coupling half twenty

A mixing chamber 5 with ribs 31 and a mixer 32 is located in the lower part of the housing 4 in the immediate vicinity of the nozzles 33 and 34 of the input source liquids. To output the resulting from the extraction of light and heavy phases from chambers 6 and 7, pipes 35 and 36 are used.

The operation of the inventive centrifugal extractor is as follows.

The motor is connected to the mains supply, the drive shaft 1 begins to rotate, driving the driving coupling half 19, transmitting the rotation moment of the driven coupling half 20 through the thin-walled shell 22. The rotor 8 begins to rotate, since it is rigidly connected to the driven coupling half 20 through the cover 12.

After the rotor 8 has set a predetermined number of revolutions, the initial processed solution through the nozzle 33 and the extractant through the nozzle 34 are fed into the mixing chamber 5, where they are mixed with a stirrer 32 connected to the bottom of the rotor 8.

The ribs 31 located in the chamber 5 prevent the twisting of liquids in the central part of the chamber 5 during the mixing process. The emulsion formed by mixing with the screw 11 is transported to the rotor 8. Under the action of centrifugal force in the rotor 8, the emulsion is stratified into light and heavy phases. The light phase moves upward in the central part of the rotor 8 while the heavy phase discarded by centrifugal force moves upward along the inner conical wall of the rotor 8. The light phase reaches the level of the tubes 10, and since their inlet openings are in the zone of movement of the light phase in the center of the rotor 8, it, overflowing into the tubes 10, is discharged from the rotor 8 into the chamber 6, from where the light phase is removed from the centrifugal extractor through the pipe 35 . At the same time, the heavy phase, moving along the inner conical wall of the rotor 8, reaches the disk 13 and through the holes 14 in it enters the cavity of the hydraulic lock, moves to the overflow 37 and then, passing through the gaps 38, the channels 39 in the thrust bearing 40, in the sleeve 26 of the bearing 2 and in the sleeve 28 of the bearing 3, and then through the gap 41, enters the gap 30 between the thin-walled shell 22 of the sealing partition screen and the driven coupling half 20.

The fixed activator 15, interacting with the flow of the heavy phase swirling by the blades 16, 17 and 18, provides turbulence in it, thereby contributing to the removal of possible solid impurities in the heavy phase.

Further movement of the heavy phase upward is prevented by the flange 21 of the sealing screen partition, and the heavy phase, forced to reverse the direction of movement, is poured into the chamber 7 of the output of the heavy phase, from where it is removed from the centrifugal extractor through the pipe 36.

From the above description of the design of the utility model in and in the work, it follows that in the inventive centrifugal extractor there is not even the slightest possibility of leaks.

In case of failure of the extractor, it is stopped, all components and parts located in the housing 4, except for the mixing chamber 5 with ribs 31 and pipes 33, 34, 35, 36, are removed and replaced with new ones.

The extraction procedure is as follows: the actuator 1 is disconnected from the flange 21 and removed together with the drive coupling half 19, then the flange 21 is disconnected from the flange 24 of the housing 4 and the rotor 8 is removed in one step with the cover 12 and with the tube 9 placed in them, the crosspiece 29 with tubes 10 , a conveying device 11, a disk 13, an activator 15, blades 16, 17, 18, a driven coupling half 20, a sealing screen baffle and a bearing support containing a thrust bearing 41 and two plain bearings 2 and 3. As can be seen, this process is simple and short .

Thus, the design of the inventive apparatus provides everything in order to achieve the desired results when used in industrial production - its absolute tightness during operation of the extractor and the quick, easy and safe replacement of components and parts of the inventive centrifugal extractor during repair.

Claims (1)

A centrifugal extractor containing a drive, a bearing support, a housing with a mixing chamber and phase output chambers, a rotor with a separation chamber, a conveying device, a water seal and tubes for outputting the light phase, a magnetic coupling, the driving coupling of which is fixed to the drive shaft, the driven coupling half is rigidly connected to a rotor, and between the half-couplings there is a sealing baffle-screen connected rigidly to the housing and connected to the rotor through a bearing sliding bearing connected to the bottom of the baffle-screen bearings, while the cavity of the hydraulic lock is in communication with a gap between the sealing baffle-screen and the driven coupling half, characterized in that the second sliding bearing of the bearing support is connected to the bottom of the sealing baffle-screen.